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freeswitch/libs/apr-util/test/testdate.c
Michael Jerris 3b35430557 add apr-util 1.2.8 to in tree libs 
git-svn-id: http://svn.freeswitch.org/svn/freeswitch/trunk@3734 d0543943-73ff-0310-b7d9-9358b9ac24b2
2006-12-19 20:04:21 +00:00

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/* This program tests the date_parse_http routine in ../main/util_date.c.
*
* It is only semiautomated in that I would run it, modify the code to
* use a different algorithm or seed, recompile and run again, etc.
* Obviously it should use an argument for that, but I never got around
* to changing the implementation.
*
* gcc -g -O2 -I../main -o test_date ../main/util_date.o test_date.c
* test_date | egrep '^No '
*
* Roy Fielding, 1996
*/
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include "apr_date.h"
#ifndef srand48
#define srand48 srandom
#endif
#ifndef mrand48
#define mrand48 random
#endif
void gm_timestr_822(char *ts, apr_time_t sec);
void gm_timestr_850(char *ts, apr_time_t sec);
void gm_timestr_ccc(char *ts, apr_time_t sec);
static const apr_time_t year2secs[] = {
0LL, /* 1970 */
31536000LL, /* 1971 */
63072000LL, /* 1972 */
94694400LL, /* 1973 */
126230400LL, /* 1974 */
157766400LL, /* 1975 */
189302400LL, /* 1976 */
220924800LL, /* 1977 */
252460800LL, /* 1978 */
283996800LL, /* 1979 */
315532800LL, /* 1980 */
347155200LL, /* 1981 */
378691200LL, /* 1982 */
410227200LL, /* 1983 */
441763200LL, /* 1984 */
473385600LL, /* 1985 */
504921600LL, /* 1986 */
536457600LL, /* 1987 */
567993600LL, /* 1988 */
599616000LL, /* 1989 */
631152000LL, /* 1990 */
662688000LL, /* 1991 */
694224000LL, /* 1992 */
725846400LL, /* 1993 */
757382400LL, /* 1994 */
788918400LL, /* 1995 */
820454400LL, /* 1996 */
852076800LL, /* 1997 */
883612800LL, /* 1998 */
915148800LL, /* 1999 */
946684800LL, /* 2000 */
978307200LL, /* 2001 */
1009843200LL, /* 2002 */
1041379200LL, /* 2003 */
1072915200LL, /* 2004 */
1104537600LL, /* 2005 */
1136073600LL, /* 2006 */
1167609600LL, /* 2007 */
1199145600LL, /* 2008 */
1230768000LL, /* 2009 */
1262304000LL, /* 2010 */
1293840000LL, /* 2011 */
1325376000LL, /* 2012 */
1356998400LL, /* 2013 */
1388534400LL, /* 2014 */
1420070400LL, /* 2015 */
1451606400LL, /* 2016 */
1483228800LL, /* 2017 */
1514764800LL, /* 2018 */
1546300800LL, /* 2019 */
1577836800LL, /* 2020 */
1609459200LL, /* 2021 */
1640995200LL, /* 2022 */
1672531200LL, /* 2023 */
1704067200LL, /* 2024 */
1735689600LL, /* 2025 */
1767225600LL, /* 2026 */
1798761600LL, /* 2027 */
1830297600LL, /* 2028 */
1861920000LL, /* 2029 */
1893456000LL, /* 2030 */
1924992000LL, /* 2031 */
1956528000LL, /* 2032 */
1988150400LL, /* 2033 */
2019686400LL, /* 2034 */
2051222400LL, /* 2035 */
2082758400LL, /* 2036 */
2114380800LL, /* 2037 */
2145916800LL /* 2038 */
};
const char month_snames[12][4] = {
"Jan","Feb","Mar","Apr","May","Jun","Jul","Aug","Sep","Oct","Nov","Dec"
};
void gm_timestr_822(char *ts, apr_time_t sec)
{
static const char *const days[7]=
{"Sun","Mon", "Tue", "Wed", "Thu", "Fri", "Sat"};
struct tm *tms;
time_t ls = (time_t)sec;
tms = gmtime(&ls);
sprintf(ts, "%s, %.2d %s %d %.2d:%.2d:%.2d GMT", days[tms->tm_wday],
tms->tm_mday, month_snames[tms->tm_mon], tms->tm_year + 1900,
tms->tm_hour, tms->tm_min, tms->tm_sec);
}
void gm_timestr_850(char *ts, apr_time_t sec)
{
static const char *const days[7]=
{"Sunday","Monday", "Tuesday", "Wednesday", "Thursday", "Friday",
"Saturday"};
struct tm *tms;
int year;
time_t ls = (time_t)sec;
tms = gmtime(&ls);
year = tms->tm_year;
if (year >= 100) year -= 100;
sprintf(ts, "%s, %.2d-%s-%.2d %.2d:%.2d:%.2d GMT", days[tms->tm_wday],
tms->tm_mday, month_snames[tms->tm_mon], year,
tms->tm_hour, tms->tm_min, tms->tm_sec);
}
void gm_timestr_ccc(char *ts, apr_time_t sec)
{
static const char *const days[7]=
{"Sun","Mon", "Tue", "Wed", "Thu", "Fri", "Sat"};
struct tm *tms;
time_t ls = (time_t)sec;
tms = gmtime(&ls);
sprintf(ts, "%s %s %2d %.2d:%.2d:%.2d %d", days[tms->tm_wday],
month_snames[tms->tm_mon], tms->tm_mday,
tms->tm_hour, tms->tm_min, tms->tm_sec, tms->tm_year + 1900);
}
int main (void)
{
int year, i;
apr_time_t guess;
apr_time_t offset = 0;
/* apr_time_t offset = 0; */
/* apr_time_t offset = ((31 + 28) * 24 * 3600) - 1; */
apr_time_t secstodate, newsecs;
char datestr[50];
for (year = 1970; year < 2038; ++year) {
secstodate = year2secs[year - 1970] + offset;
gm_timestr_822(datestr, secstodate);
secstodate *= APR_USEC_PER_SEC;
newsecs = apr_date_parse_http(datestr);
if (secstodate == newsecs)
printf("Yes %4d %19" APR_TIME_T_FMT " %s\n", year, secstodate, datestr);
else if (newsecs == APR_DATE_BAD)
printf("No %4d %19" APR_TIME_T_FMT " %19" APR_TIME_T_FMT " %s\n",
year, secstodate, newsecs, datestr);
else
printf("No* %4d %19" APR_TIME_T_FMT " %19" APR_TIME_T_FMT " %s\n",
year, secstodate, newsecs, datestr);
}
srand48(978245L);
for (i = 0; i < 10000; ++i) {
guess = (time_t)mrand48();
if (guess < 0) guess *= -1;
secstodate = guess + offset;
gm_timestr_822(datestr, secstodate);
secstodate *= APR_USEC_PER_SEC;
newsecs = apr_date_parse_http(datestr);
if (secstodate == newsecs)
printf("Yes %" APR_TIME_T_FMT " %s\n", secstodate, datestr);
else if (newsecs == APR_DATE_BAD)
printf("No %" APR_TIME_T_FMT " %" APR_TIME_T_FMT " %s\n",
secstodate, newsecs, datestr);
else
printf("No* %" APR_TIME_T_FMT " %" APR_TIME_T_FMT " %s\n",
secstodate, newsecs, datestr);
}
exit(0);
}
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